I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make another video but unfortunately my truck has broken down. I had a lot of fun making this video and really wish I could make more.
Thanks for watching!

Santa Claus

Santa Claus, Saint Nicholas, Saint Nick, Father Christmas, Kris Kringle, Santy, or simply Santa is a mythical figure with historical origins who, in many Western cultures, brings gifts to the homes of well-behaved, "good" children on Christmas Eve (24 December) and the early morning hours of Christmas Day (25 December). The modern Santa Claus is derived from the British figure of Father Christmas, the Dutch figure of Sinterklaas, and Saint Nicholas, the historical Greek bishop and gift-giver of Myra. During the Christianization of Germanic Europe, this figure may also have absorbed elements of the god Odin, who was associated with the Germanic pagan midwinter event of Yule and led the Wild Hunt, a ghostly procession through the sky.

Santa Claus is generally depicted as a portly, joyous, white-bearded man—sometimes with spectacles—wearing a red coat with white collar and cuffs, white-cuffed red trousers, and black leather belt and boots and who carries a bag full of gifts for children. Images of him rarely have a beard with no moustache. This image became popular in the United States and Canada in the 19th century due to the significant influence of the 1823 poem "A Visit From St. Nicholas" and of caricaturist and political cartoonist Thomas Nast. This image has been maintained and reinforced through song, radio, television, children's books and films.

A fire department may also provide "fire protection" or fire prevention services, whereby firefighters visit homes and give fire safety advice and fit smoke alarms for members of the public. In many countries fire protection or prevention is seen as an important role for the fire service, as preventing a fire from occurring in the first place can save lives and property.

Organization

Fire departments are organized in a system of administration, services, training, and operations; for example:

Equipment

Type 1 Engine

Santa Barbara City has a total of 11 Pumper Engines with 7 acting as frontline engines and an additional 4 in reserve. These engines are staffed by 3 personnel, A captain, an engineer and a firefighter. Each engine is fitted with a 1500 GPM pump and carries 750 gallons of water.

Type 3 Engine

The Type 3 Engines, which are used mainly for vegetation fires, are smaller than the Type 1s which are used primarily in the city. The Type 3 has 4 x 4 capability and can thus climb hills and make it through rough terrain. One of the features that makes the Type 3 ideal for vegetation fires is that it can pump water while driving, whereas the Type 1 engine must be put into park to flow water. This allows the Type 3 to make "running attacks" on vegetation fires, a tactic that can help minimize the rate of spread by having a firefighter walk the edge of a fire with a hose line and the Type 3 trailing close behind. Each of the engines feature a 500 gallon water tank and a 20 gallon tank for the Class A foam injection. In September 2013, the SBFD bought a second $400,000 Type 3 Engine and placed it at station 7, moving the older Type 3 to station 4.

Santa Barbara tour

Motor vakantie Italië 2016 020 Riva del Garda naar Santa Barbara

30:25

Santa Barbara Drive

Santa Barbara Drive

Santa Barbara Drive

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make another video but unfortunately my truck has broken down. I had a lot of fun making this video and really wish I could make more.
Thanks for watching!

0:59

Santa Barbara ww2 Halftrack FOR SALE VETERAN'S DAY MEMORIAL DAY military vehicles DRIVING

Santa Barbara ww2 Halftrack FOR SALE VETERAN'S DAY MEMORIAL DAY military vehicles DRIVING

Santa Barbara ww2 Halftrack FOR SALE VETERAN'S DAY MEMORIAL DAY military vehicles DRIVING

Santa Barbara tour

Motor vakantie Italië 2016 020 Riva del Garda naar Santa Barbara

published: 04 Jun 2016

Santa Barbara Drive

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make another video but unfortunately my truck has broken down. I had a lot of fun making this video and really wish I could make more.
Thanks for watching!

published: 01 Mar 2012

Santa Barbara ww2 Halftrack FOR SALE VETERAN'S DAY MEMORIAL DAY military vehicles DRIVING

Santa Barbara Drive

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make anothe...

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make another video but unfortunately my truck has broken down. I had a lot of fun making this video and really wish I could make more.
Thanks for watching!

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make another video but unfortunately my truck has broken down. I had a lot of fun making this video and really wish I could make more.
Thanks for watching!

published:01 Mar 2012

views:74187

back

Santa Barbara ww2 Halftrack FOR SALE VETERAN'S DAY MEMORIAL DAY military vehicles DRIVING

Santa Barbara Drive

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make another video but unfortunately my truck has broken down. I had a lot of fun making this video and really wish I could make more.
Thanks for watching!

Motor vakantie Italië 2016 020 Riva del Garda naar Santa Barbara

Raid comuna santa barbara 4x4

Ron Vale (UCSF, HHMI) 1: Molecular Motor Proteins

http://www.ibiology.org/ibioseminars/cell-biology/ron-vale-part-1.htmlMolecular motor proteins are fascinating enzymes that power much of the movement performed by living organisms. In this introductory lecture, I will provide an overview of the motors that move along cytoskeletal tracks (kinesin and dynein which move along microtubules and myosin which moves along actin). The talk first describes the broad spectrum of biological roles that kinesin, dynein and myosin play in cells. The talk then discusses how these nanoscale proteins convert energy from ATP hydrolysis into unidirectional motion and force production, and compares common principles of kinesin and myosin. The talk concludes by discussing the role of motor proteins in disease and how drugs that modulate motor protein activit...

Spent a sunset in Santa Barbara with my friend Jeff Chavolla (check out his surfing and drone videos) shooting some drone footage. I also talk a little about my 1978 Yamaha SR500 and where I sit in the application process to become a police officer in the LAPD.

NITE LIFE CC in Santa Barbara PT. 2 "THE HOP"

http://www.ibiology.org/ibioseminars/cell-biology/ron-vale-part-2.htmlMolecular motor proteins are fascinating enzymes that power much of the movement performed by living organisms. In this introductory lecture, I will provide an overview of the motors that move along cytoskeletal tracks (kinesin and dynein which move along microtubules and myosin which moves along actin). The talk first describes the broad spectrum of biological roles that kinesin, dynein and myosin play in cells. The talk then discusses how these nanoscale proteins convert energy from ATP hydrolysis into unidirectional motion and force production, and compares common principles of kinesin and myosin. The talk concludes by discussing the role of motor proteins in disease and how drugs that modulate motor protein activit...

Santa Barbara Drive

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make anothe...

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make another video but unfortunately my truck has broken down. I had a lot of fun making this video and really wish I could make more.
Thanks for watching!

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make another video but unfortunately my truck has broken down. I had a lot of fun making this video and really wish I could make more.
Thanks for watching!

Ron Vale (UCSF, HHMI) 1: Molecular Motor Proteins

http://www.ibiology.org/ibioseminars/cell-biology/ron-vale-part-1.htmlMolecular motor proteins are fascinating enzymes that power much of the movement perform...

http://www.ibiology.org/ibioseminars/cell-biology/ron-vale-part-1.htmlMolecular motor proteins are fascinating enzymes that power much of the movement performed by living organisms. In this introductory lecture, I will provide an overview of the motors that move along cytoskeletal tracks (kinesin and dynein which move along microtubules and myosin which moves along actin). The talk first describes the broad spectrum of biological roles that kinesin, dynein and myosin play in cells. The talk then discusses how these nanoscale proteins convert energy from ATP hydrolysis into unidirectional motion and force production, and compares common principles of kinesin and myosin. The talk concludes by discussing the role of motor proteins in disease and how drugs that modulate motor protein activity can treat human disease.
Part 2 discusses recent work from the Vale laboratory and other groups, on the mechanism of movement by dynein, a microtubule motor that is less well understood than kinesin and myosin. The lecture discusses the unusual properties of dynein stepping along microtubules, which have been uncovered using single molecule techniques. The nucleotide-driven structural changes in the dynein motor domain (elucidated by X-ray crystallography and electron microscopy) are also described. A model for dynein movement in the form of an animation is presented. However, much remains to be done in order to understand how this motor works and to test which elements of this model are correct.
The third (last) part of the lecture explains how the movement of mammalian dynein is regulated by other proteins such dynactin and adapter proteins. It also describes the effect of post-translational modifications of tubulin on dynein motility. This talk features the use of single molecule imaging techniques and biochemical reconstitution to study these problems. Unanswered questions on dynein regulation are also presented.
Speaker Biography:
Ron Vale is a Professor of Cellular and Molecular Pharmacology at the University of California, San Francisco and an Investigator of the Howard Hughes Medical Institute. He is also the founder of the iBiology project.
Vale received a B.A. degree in biology and chemistry from the University of California, Santa Barbara, and a Ph.D. degree in neuroscience from Stanford University. His graduate and postdoctoral studies at the Marine Biological Laboratory led to the discovery of kinesin, a microtubule-based motor protein.
Dr. Vale’s honors include the Pfizer Award in enzyme chemistry, the Lasker Award for BasicMedical Research, and elections to the National Academy of Sciences, National Academy of Medicine, and the American Academy of Arts and Sciences. Besides studying the mechanism of motor proteins, Vale’s laboratory studies mitosis, RNA biology, and the mechanism of T cell signaling.

http://www.ibiology.org/ibioseminars/cell-biology/ron-vale-part-1.htmlMolecular motor proteins are fascinating enzymes that power much of the movement performed by living organisms. In this introductory lecture, I will provide an overview of the motors that move along cytoskeletal tracks (kinesin and dynein which move along microtubules and myosin which moves along actin). The talk first describes the broad spectrum of biological roles that kinesin, dynein and myosin play in cells. The talk then discusses how these nanoscale proteins convert energy from ATP hydrolysis into unidirectional motion and force production, and compares common principles of kinesin and myosin. The talk concludes by discussing the role of motor proteins in disease and how drugs that modulate motor protein activity can treat human disease.
Part 2 discusses recent work from the Vale laboratory and other groups, on the mechanism of movement by dynein, a microtubule motor that is less well understood than kinesin and myosin. The lecture discusses the unusual properties of dynein stepping along microtubules, which have been uncovered using single molecule techniques. The nucleotide-driven structural changes in the dynein motor domain (elucidated by X-ray crystallography and electron microscopy) are also described. A model for dynein movement in the form of an animation is presented. However, much remains to be done in order to understand how this motor works and to test which elements of this model are correct.
The third (last) part of the lecture explains how the movement of mammalian dynein is regulated by other proteins such dynactin and adapter proteins. It also describes the effect of post-translational modifications of tubulin on dynein motility. This talk features the use of single molecule imaging techniques and biochemical reconstitution to study these problems. Unanswered questions on dynein regulation are also presented.
Speaker Biography:
Ron Vale is a Professor of Cellular and Molecular Pharmacology at the University of California, San Francisco and an Investigator of the Howard Hughes Medical Institute. He is also the founder of the iBiology project.
Vale received a B.A. degree in biology and chemistry from the University of California, Santa Barbara, and a Ph.D. degree in neuroscience from Stanford University. His graduate and postdoctoral studies at the Marine Biological Laboratory led to the discovery of kinesin, a microtubule-based motor protein.
Dr. Vale’s honors include the Pfizer Award in enzyme chemistry, the Lasker Award for BasicMedical Research, and elections to the National Academy of Sciences, National Academy of Medicine, and the American Academy of Arts and Sciences. Besides studying the mechanism of motor proteins, Vale’s laboratory studies mitosis, RNA biology, and the mechanism of T cell signaling.

Spent a sunset in Santa Barbara with my friend Jeff Chavolla (check out his surfing and drone videos) shooting some drone footage. I also talk a little about my...

Spent a sunset in Santa Barbara with my friend Jeff Chavolla (check out his surfing and drone videos) shooting some drone footage. I also talk a little about my 1978 Yamaha SR500 and where I sit in the application process to become a police officer in the LAPD.

Spent a sunset in Santa Barbara with my friend Jeff Chavolla (check out his surfing and drone videos) shooting some drone footage. I also talk a little about my 1978 Yamaha SR500 and where I sit in the application process to become a police officer in the LAPD.

http://www.ibiology.org/ibioseminars/cell-biology/ron-vale-part-2.htmlMolecular motor proteins are fascinating enzymes that power much of the movement perform...

http://www.ibiology.org/ibioseminars/cell-biology/ron-vale-part-2.htmlMolecular motor proteins are fascinating enzymes that power much of the movement performed by living organisms. In this introductory lecture, I will provide an overview of the motors that move along cytoskeletal tracks (kinesin and dynein which move along microtubules and myosin which moves along actin). The talk first describes the broad spectrum of biological roles that kinesin, dynein and myosin play in cells. The talk then discusses how these nanoscale proteins convert energy from ATP hydrolysis into unidirectional motion and force production, and compares common principles of kinesin and myosin. The talk concludes by discussing the role of motor proteins in disease and how drugs that modulate motor protein activity can treat human disease.
Part 2 discusses recent work from the Vale laboratory and other groups, on the mechanism of movement by dynein, a microtubule motor that is less well understood than kinesin and myosin. The lecture discusses the unusual properties of dynein stepping along microtubules, which have been uncovered using single molecule techniques. The nucleotide-driven structural changes in the dynein motor domain (elucidated by X-ray crystallography and electron microscopy) are also described. A model for dynein movement in the form of an animation is presented. However, much remains to be done in order to understand how this motor works and to test which elements of this model are correct.
The third (last) part of the lecture explains how the movement of mammalian dynein is regulated by other proteins such dynactin and adapter proteins. It also describes the effect of post-translational modifications of tubulin on dynein motility. This talk features the use of single molecule imaging techniques and biochemical reconstitution to study these problems. Unanswered questions on dynein regulation are also presented.
Speaker Biography:
Ron Vale is a Professor of Cellular and Molecular Pharmacology at the University of California, San Francisco and an Investigator of the Howard Hughes Medical Institute. He is also the founder of the iBiology project.
Vale received a B.A. degree in biology and chemistry from the University of California, Santa Barbara, and a Ph.D. degree in neuroscience from Stanford University. His graduate and postdoctoral studies at the Marine Biological Laboratory led to the discovery of kinesin, a microtubule-based motor protein.
Dr. Vale’s honors include the Pfizer Award in enzyme chemistry, the Lasker Award for BasicMedical Research, and elections to the National Academy of Sciences, National Academy of Medicine, and the American Academy of Arts and Sciences. Besides studying the mechanism of motor proteins, Vale’s laboratory studies mitosis, RNA biology, and the mechanism of T cell signaling.

http://www.ibiology.org/ibioseminars/cell-biology/ron-vale-part-2.htmlMolecular motor proteins are fascinating enzymes that power much of the movement performed by living organisms. In this introductory lecture, I will provide an overview of the motors that move along cytoskeletal tracks (kinesin and dynein which move along microtubules and myosin which moves along actin). The talk first describes the broad spectrum of biological roles that kinesin, dynein and myosin play in cells. The talk then discusses how these nanoscale proteins convert energy from ATP hydrolysis into unidirectional motion and force production, and compares common principles of kinesin and myosin. The talk concludes by discussing the role of motor proteins in disease and how drugs that modulate motor protein activity can treat human disease.
Part 2 discusses recent work from the Vale laboratory and other groups, on the mechanism of movement by dynein, a microtubule motor that is less well understood than kinesin and myosin. The lecture discusses the unusual properties of dynein stepping along microtubules, which have been uncovered using single molecule techniques. The nucleotide-driven structural changes in the dynein motor domain (elucidated by X-ray crystallography and electron microscopy) are also described. A model for dynein movement in the form of an animation is presented. However, much remains to be done in order to understand how this motor works and to test which elements of this model are correct.
The third (last) part of the lecture explains how the movement of mammalian dynein is regulated by other proteins such dynactin and adapter proteins. It also describes the effect of post-translational modifications of tubulin on dynein motility. This talk features the use of single molecule imaging techniques and biochemical reconstitution to study these problems. Unanswered questions on dynein regulation are also presented.
Speaker Biography:
Ron Vale is a Professor of Cellular and Molecular Pharmacology at the University of California, San Francisco and an Investigator of the Howard Hughes Medical Institute. He is also the founder of the iBiology project.
Vale received a B.A. degree in biology and chemistry from the University of California, Santa Barbara, and a Ph.D. degree in neuroscience from Stanford University. His graduate and postdoctoral studies at the Marine Biological Laboratory led to the discovery of kinesin, a microtubule-based motor protein.
Dr. Vale’s honors include the Pfizer Award in enzyme chemistry, the Lasker Award for BasicMedical Research, and elections to the National Academy of Sciences, National Academy of Medicine, and the American Academy of Arts and Sciences. Besides studying the mechanism of motor proteins, Vale’s laboratory studies mitosis, RNA biology, and the mechanism of T cell signaling.

Santa Barbara Drive

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make another video but unfortunately my truck has broken down. I had a lot of fun making this video and really wish I could make more.
Thanks for watching!

0:59

Santa Barbara ww2 Halftrack FOR SALE VETERAN'S DAY MEMORIAL DAY military vehicles DRIVING

Santa Barbara Drive

I was testing a camera mount for my truck and just took a drive through my city, I hope the sound of the engine is not too annoying. I would love to make another video but unfortunately my truck has broken down. I had a lot of fun making this video and really wish I could make more.
Thanks for watching!

Ron Vale (UCSF, HHMI) 1: Molecular Motor Proteins

http://www.ibiology.org/ibioseminars/cell-biology/ron-vale-part-1.htmlMolecular motor proteins are fascinating enzymes that power much of the movement performed by living organisms. In this introductory lecture, I will provide an overview of the motors that move along cytoskeletal tracks (kinesin and dynein which move along microtubules and myosin which moves along actin). The talk first describes the broad spectrum of biological roles that kinesin, dynein and myosin play in cells. The talk then discusses how these nanoscale proteins convert energy from ATP hydrolysis into unidirectional motion and force production, and compares common principles of kinesin and myosin. The talk concludes by discussing the role of motor proteins in disease and how drugs that modulate motor protein activity can treat human disease.
Part 2 discusses recent work from the Vale laboratory and other groups, on the mechanism of movement by dynein, a microtubule motor that is less well understood than kinesin and myosin. The lecture discusses the unusual properties of dynein stepping along microtubules, which have been uncovered using single molecule techniques. The nucleotide-driven structural changes in the dynein motor domain (elucidated by X-ray crystallography and electron microscopy) are also described. A model for dynein movement in the form of an animation is presented. However, much remains to be done in order to understand how this motor works and to test which elements of this model are correct.
The third (last) part of the lecture explains how the movement of mammalian dynein is regulated by other proteins such dynactin and adapter proteins. It also describes the effect of post-translational modifications of tubulin on dynein motility. This talk features the use of single molecule imaging techniques and biochemical reconstitution to study these problems. Unanswered questions on dynein regulation are also presented.
Speaker Biography:
Ron Vale is a Professor of Cellular and Molecular Pharmacology at the University of California, San Francisco and an Investigator of the Howard Hughes Medical Institute. He is also the founder of the iBiology project.
Vale received a B.A. degree in biology and chemistry from the University of California, Santa Barbara, and a Ph.D. degree in neuroscience from Stanford University. His graduate and postdoctoral studies at the Marine Biological Laboratory led to the discovery of kinesin, a microtubule-based motor protein.
Dr. Vale’s honors include the Pfizer Award in enzyme chemistry, the Lasker Award for BasicMedical Research, and elections to the National Academy of Sciences, National Academy of Medicine, and the American Academy of Arts and Sciences. Besides studying the mechanism of motor proteins, Vale’s laboratory studies mitosis, RNA biology, and the mechanism of T cell signaling.

Spent a sunset in Santa Barbara with my friend Jeff Chavolla (check out his surfing and drone videos) shooting some drone footage. I also talk a little about my 1978 Yamaha SR500 and where I sit in the application process to become a police officer in the LAPD.

1:05:59

Driving Guy road trips from Santa Barbara to Thousand Oaks

Get inside the Driving Guy's head while he navigates the treacherous Southern California r...

http://www.ibiology.org/ibioseminars/cell-biology/ron-vale-part-2.htmlMolecular motor proteins are fascinating enzymes that power much of the movement performed by living organisms. In this introductory lecture, I will provide an overview of the motors that move along cytoskeletal tracks (kinesin and dynein which move along microtubules and myosin which moves along actin). The talk first describes the broad spectrum of biological roles that kinesin, dynein and myosin play in cells. The talk then discusses how these nanoscale proteins convert energy from ATP hydrolysis into unidirectional motion and force production, and compares common principles of kinesin and myosin. The talk concludes by discussing the role of motor proteins in disease and how drugs that modulate motor protein activity can treat human disease.
Part 2 discusses recent work from the Vale laboratory and other groups, on the mechanism of movement by dynein, a microtubule motor that is less well understood than kinesin and myosin. The lecture discusses the unusual properties of dynein stepping along microtubules, which have been uncovered using single molecule techniques. The nucleotide-driven structural changes in the dynein motor domain (elucidated by X-ray crystallography and electron microscopy) are also described. A model for dynein movement in the form of an animation is presented. However, much remains to be done in order to understand how this motor works and to test which elements of this model are correct.
The third (last) part of the lecture explains how the movement of mammalian dynein is regulated by other proteins such dynactin and adapter proteins. It also describes the effect of post-translational modifications of tubulin on dynein motility. This talk features the use of single molecule imaging techniques and biochemical reconstitution to study these problems. Unanswered questions on dynein regulation are also presented.
Speaker Biography:
Ron Vale is a Professor of Cellular and Molecular Pharmacology at the University of California, San Francisco and an Investigator of the Howard Hughes Medical Institute. He is also the founder of the iBiology project.
Vale received a B.A. degree in biology and chemistry from the University of California, Santa Barbara, and a Ph.D. degree in neuroscience from Stanford University. His graduate and postdoctoral studies at the Marine Biological Laboratory led to the discovery of kinesin, a microtubule-based motor protein.
Dr. Vale’s honors include the Pfizer Award in enzyme chemistry, the Lasker Award for BasicMedical Research, and elections to the National Academy of Sciences, National Academy of Medicine, and the American Academy of Arts and Sciences. Besides studying the mechanism of motor proteins, Vale’s laboratory studies mitosis, RNA biology, and the mechanism of T cell signaling.

Ron Vale (UCSF, HHMI) 2: Molecular Motor Proteins:...

Santa Barbara

Pour on the rum on the woundAnd send kisses through a postcardThe winter has comeStraight to the bonesWile you're still rubbing your eyesLet the wax dry on the pulpsPrayers are becoming coursesSalt-away heart/cuttlebone knife...nobody loves as i love you tonight!Far away from hereWhere the sky is getting clearThe blueberries floatIn the outdoor washtubsAnd my hampered fingersAs a compass without a needleIt will never endLooking for your handsFar-from-here-so-far-awayFar-from-you-far-far-awayOver the foam of the wavesThe tail of the whaleOver and over

&nbsp;. According to reports, the work predicts that the universe would eventually end when stars run out of energy ...Hawking died last Wednesday in Cambridge at the age of 76, having suffered from a rare form of motor neuron disease since 1964 that left him in a wheelchair with very little muscular mobility ... ....

Britain’s Royal Astronomical Society announced Monday that an object called 1I/2017 (‘Oumuamua) – the first confirmed asteroid known to have journeyed here from outside our solar system – most likely came from from a binary star system, or two stars orbiting a common center of gravity, EarthSky reported ... They looked at how common these star systems are in the galaxy ... ....

In another blow to the Trump administration Monday, the US Supreme Court decided Arizona must continue to issue state driver’s licenses to so-called Dreamer immigrants and refused to hear an effort by the state to challenge the Obama-era program that protects hundreds of thousands of young adults brought into the country illegally as children, Reuters reported ... – WN.com. Jack Durschlag....

You can search using any combination of the items listed below.

Now Local LA TimesSantaBarbaraCounty orders mandatory evacuations amid 'high' threat of rock falls and mudslides ... Residents in SantaBarbara County were ordered to evacuate — for the third time this month — ahead of a powerful storm that's expected to drench Southern California starting Tuesday night ... Hall at 3400Calle Real in SantaBarbara....

SantaBarbaraCounty officials ordered mandatory evacuations for Tuesday at noon ... The most rain is expected in the San Gabriel Mountains, and in Ventura and SantaBarbara counties ... SantaBarbara County emergency management director Rob Lewin said based on the forecast the storm will be the most powerful since the Jan ... SantaBarbara Unified will hold classes as planned....

5.30 p.m ...SantaBarbaraCounty issued a mandatory evacuation order affecting about 30,000 people, including the community of Montecito, where 21 people were killed by a massive mudslide in January ... ———. 6.30 a.m ... SantaBarbara County has issued pre-evacuation advisory for communities near areas burned by four recent wildfires ... ....

SantaBarbaraCounty issued a mandatory evacuation order Monday affecting about 30,000 people, including the community of Montecito, where 21 people were killed by a massive mudslide in January. The evacuation order said residents should be out of the areas affected by noon Tuesday ... Where exactly the peak rainfall will occur was still uncertain, but meteorologists said it seemed likely it would be SantaBarbara County ... Stay updated ... ....

The SantaBarbaraCounty Sheriff’s Office has issued a mandatory evacuation order for individuals below last year's wildfire burn areas, effective at noon Tuesday. The order comes as what meteorologists ... ....

SANTA CRUZ >> No formal opposition has arisen against two controversial SantaCruz ballot measures, a sales tax hike and UC Santa Cruz enrollment cap, slated for the June 5 election. Arguments for and against the primary election's six listed ballot initiatives were due Friday, with one opposition argument filed countywide ... ....

Investors in major automaker GeneralMotors (NYSE... Most investors have heard of General Motors' Maven brand, which was launched in January 2016 and which develops the automaker's smart-mobility and ridesharing projects ... General Motors ... That might sound like pennies for an automaker the size of General Motors, but investors would be wise to remember that Uber went from unheard-of to a $60 billion valuation in less than a decade....

SANTA CRUZ >> It's the end of the ride for the SantaCruz Beach Boardwalk's Ferris wheel, which workers dismantled Monday after nearly 60 years in service. The Ferris wheel was taken down during the winter season for routine maintenance, and a decision was later made to shut the ride down permanently ... ....

A big tool that emergency responders in Santa Clarita have been using is Narcan, a nasal overdose reversal drug ... The Santa Clarita Valley Sheriff’s Station received training in how to use Narcan back in August ... life-saving treatment, according to a news release from the Santa Clarita Valley Sheriff’s Station ... Santa Clarita Valley drug sweep nets two....